The Experts below are selected from a list of 24246 Experts worldwide ranked by ideXlab platform
Sébastien Augustin - One of the best experts on this subject based on the ideXlab platform.
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Impaired vitreous composition and retinal pigment epithelium function in the FoxG1::LRP2 myopic mice
Biochimica et Biophysica Acta - Molecular Basis of Disease, 2017Co-Authors: Olivier Cases, Manuel Simonutti, Antoine Joseph, Antoine Obry, Sirine Ben-yacoub, Sébastien Augustin, Géraldine Toutirais, Annabel Christ, Pascal Cosette, Renata KozyrakiAbstract:High myopia (HM) is one of the main causes of visual impairment and blindness all over the world and an unsolved medical problem. Persons with HM are predisposed to other eye pathologies such as retinal detachment, myopic retinopathy or glaucomatous optic neuropathy, complications that may at least partly result from the extensive liquefaction of the myopic vitreous gel. To identify the involvement of the liquid vitreous in the pathogenesis of HM we here analyzed the vitreous of the recently described highly myopic low density lipoprotein receptor-related protein 2 (LRP2)-deficient eyes. Whereas the gel-like fraction was not apparently modified, the volume of the liquid vitreous fraction (LVF) was much higher in the myopic eyes. Biochemical and proteome analysis of the LVF revealed several modifications including a marked decrease of potassium, sodium and chloride, of proteins involved in ocular tissue homeostasis and repair as well as of ADP-ribosylation factor 4 (ARF4), a protein possibly involved in LRP2 trafficking. A small number of proteins, mainly comprising known LRP2 ligands or proteins of the inflammatory response, were over expressed in the mutants. Moreover the morphology of the LRP2-deficient retinal pigment epithelium (RPE) cells was affected and the expression of ARF4 as well as of proteins involved in degradative endocytosis was strongly reduced. Our results support the idea that impairment of the RPE structure and most likely endocytic function may contribute to the vitreal modifications and pathogenesis of HM.
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Foxg1-Cre mediated LRP2 inactivation in the developing mouse neural retina, ciliary and retinal pigment epithelia models congenital high myopia
PLoS ONE, 2015Co-Authors: Olivier Cases, Manuel Simonutti, Antoine Joseph, Antoine Obry, Mathieu D. Santin, Sirine Ben-yacoub, Michel Pâques, Sabine Amsellem-levera, Ana Bribian, Sébastien AugustinAbstract:Myopia is a common ocular disorder generally due to increased axial length of the eye-globe. Its extreme form high myopia (HM) is a multifactorial disease leading to retinal and scleral dam-age, visual impairment or loss and is an important health issue. Mutations in the endocytic receptor LRP2 gene result in Donnai-Barrow (DBS) and Stickler syndromes, both characterized by HM. To clearly establish the link between LRP2 and congenital HM we inactivated LRP2 in the mouse forebrain including the neural retina and the retinal and ciliary pigment epithelia. High resolution in vivo MRI imaging and ophthalmological analyses showed that the adult LRP2-defi-cient eyes were 40% longer than the control ones mainly due to an excessive elongation of the vitreal chamber. They had an apparently normal intraocular pressure and developed chorioret-inal atrophy and posterior scleral staphyloma features reminiscent of human myopic retinopa-thy. Immunomorphological and ultrastructural analyses showed that increased eye lengthening was first observed by post-natal day 5 (P5) and that it was accompanied by a rapid decrease of the bipolar, photoreceptor and retinal ganglion cells, and eventually the optic nerve axons. It was followed by scleral thinning and collagen fiber disorganization, essentially in the posterior pole. We conclude that the function of LRP2 in the ocular tissues is necessary for normal eye growth and that the LRP2-deficient eyes provide a unique tool to further study human HM.
Olivier Cases - One of the best experts on this subject based on the ideXlab platform.
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Impaired vitreous composition and retinal pigment epithelium function in the FoxG1::LRP2 myopic mice
Biochimica et Biophysica Acta - Molecular Basis of Disease, 2017Co-Authors: Olivier Cases, Manuel Simonutti, Antoine Joseph, Antoine Obry, Sirine Ben-yacoub, Sébastien Augustin, Géraldine Toutirais, Annabel Christ, Pascal Cosette, Renata KozyrakiAbstract:High myopia (HM) is one of the main causes of visual impairment and blindness all over the world and an unsolved medical problem. Persons with HM are predisposed to other eye pathologies such as retinal detachment, myopic retinopathy or glaucomatous optic neuropathy, complications that may at least partly result from the extensive liquefaction of the myopic vitreous gel. To identify the involvement of the liquid vitreous in the pathogenesis of HM we here analyzed the vitreous of the recently described highly myopic low density lipoprotein receptor-related protein 2 (LRP2)-deficient eyes. Whereas the gel-like fraction was not apparently modified, the volume of the liquid vitreous fraction (LVF) was much higher in the myopic eyes. Biochemical and proteome analysis of the LVF revealed several modifications including a marked decrease of potassium, sodium and chloride, of proteins involved in ocular tissue homeostasis and repair as well as of ADP-ribosylation factor 4 (ARF4), a protein possibly involved in LRP2 trafficking. A small number of proteins, mainly comprising known LRP2 ligands or proteins of the inflammatory response, were over expressed in the mutants. Moreover the morphology of the LRP2-deficient retinal pigment epithelium (RPE) cells was affected and the expression of ARF4 as well as of proteins involved in degradative endocytosis was strongly reduced. Our results support the idea that impairment of the RPE structure and most likely endocytic function may contribute to the vitreal modifications and pathogenesis of HM.
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Foxg1-Cre mediated LRP2 inactivation in the developing mouse neural retina, ciliary and retinal pigment epithelia models congenital high myopia
PLoS ONE, 2015Co-Authors: Olivier Cases, Manuel Simonutti, Antoine Joseph, Antoine Obry, Mathieu D. Santin, Sirine Ben-yacoub, Michel Pâques, Sabine Amsellem-levera, Ana Bribian, Sébastien AugustinAbstract:Myopia is a common ocular disorder generally due to increased axial length of the eye-globe. Its extreme form high myopia (HM) is a multifactorial disease leading to retinal and scleral dam-age, visual impairment or loss and is an important health issue. Mutations in the endocytic receptor LRP2 gene result in Donnai-Barrow (DBS) and Stickler syndromes, both characterized by HM. To clearly establish the link between LRP2 and congenital HM we inactivated LRP2 in the mouse forebrain including the neural retina and the retinal and ciliary pigment epithelia. High resolution in vivo MRI imaging and ophthalmological analyses showed that the adult LRP2-defi-cient eyes were 40% longer than the control ones mainly due to an excessive elongation of the vitreal chamber. They had an apparently normal intraocular pressure and developed chorioret-inal atrophy and posterior scleral staphyloma features reminiscent of human myopic retinopa-thy. Immunomorphological and ultrastructural analyses showed that increased eye lengthening was first observed by post-natal day 5 (P5) and that it was accompanied by a rapid decrease of the bipolar, photoreceptor and retinal ganglion cells, and eventually the optic nerve axons. It was followed by scleral thinning and collagen fiber disorganization, essentially in the posterior pole. We conclude that the function of LRP2 in the ocular tissues is necessary for normal eye growth and that the LRP2-deficient eyes provide a unique tool to further study human HM.
Antoine Joseph - One of the best experts on this subject based on the ideXlab platform.
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Impaired vitreous composition and retinal pigment epithelium function in the FoxG1::LRP2 myopic mice
Biochimica et Biophysica Acta - Molecular Basis of Disease, 2017Co-Authors: Olivier Cases, Manuel Simonutti, Antoine Joseph, Antoine Obry, Sirine Ben-yacoub, Sébastien Augustin, Géraldine Toutirais, Annabel Christ, Pascal Cosette, Renata KozyrakiAbstract:High myopia (HM) is one of the main causes of visual impairment and blindness all over the world and an unsolved medical problem. Persons with HM are predisposed to other eye pathologies such as retinal detachment, myopic retinopathy or glaucomatous optic neuropathy, complications that may at least partly result from the extensive liquefaction of the myopic vitreous gel. To identify the involvement of the liquid vitreous in the pathogenesis of HM we here analyzed the vitreous of the recently described highly myopic low density lipoprotein receptor-related protein 2 (LRP2)-deficient eyes. Whereas the gel-like fraction was not apparently modified, the volume of the liquid vitreous fraction (LVF) was much higher in the myopic eyes. Biochemical and proteome analysis of the LVF revealed several modifications including a marked decrease of potassium, sodium and chloride, of proteins involved in ocular tissue homeostasis and repair as well as of ADP-ribosylation factor 4 (ARF4), a protein possibly involved in LRP2 trafficking. A small number of proteins, mainly comprising known LRP2 ligands or proteins of the inflammatory response, were over expressed in the mutants. Moreover the morphology of the LRP2-deficient retinal pigment epithelium (RPE) cells was affected and the expression of ARF4 as well as of proteins involved in degradative endocytosis was strongly reduced. Our results support the idea that impairment of the RPE structure and most likely endocytic function may contribute to the vitreal modifications and pathogenesis of HM.
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Foxg1-Cre mediated LRP2 inactivation in the developing mouse neural retina, ciliary and retinal pigment epithelia models congenital high myopia
PLoS ONE, 2015Co-Authors: Olivier Cases, Manuel Simonutti, Antoine Joseph, Antoine Obry, Mathieu D. Santin, Sirine Ben-yacoub, Michel Pâques, Sabine Amsellem-levera, Ana Bribian, Sébastien AugustinAbstract:Myopia is a common ocular disorder generally due to increased axial length of the eye-globe. Its extreme form high myopia (HM) is a multifactorial disease leading to retinal and scleral dam-age, visual impairment or loss and is an important health issue. Mutations in the endocytic receptor LRP2 gene result in Donnai-Barrow (DBS) and Stickler syndromes, both characterized by HM. To clearly establish the link between LRP2 and congenital HM we inactivated LRP2 in the mouse forebrain including the neural retina and the retinal and ciliary pigment epithelia. High resolution in vivo MRI imaging and ophthalmological analyses showed that the adult LRP2-defi-cient eyes were 40% longer than the control ones mainly due to an excessive elongation of the vitreal chamber. They had an apparently normal intraocular pressure and developed chorioret-inal atrophy and posterior scleral staphyloma features reminiscent of human myopic retinopa-thy. Immunomorphological and ultrastructural analyses showed that increased eye lengthening was first observed by post-natal day 5 (P5) and that it was accompanied by a rapid decrease of the bipolar, photoreceptor and retinal ganglion cells, and eventually the optic nerve axons. It was followed by scleral thinning and collagen fiber disorganization, essentially in the posterior pole. We conclude that the function of LRP2 in the ocular tissues is necessary for normal eye growth and that the LRP2-deficient eyes provide a unique tool to further study human HM.
Sirine Ben-yacoub - One of the best experts on this subject based on the ideXlab platform.
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Impaired vitreous composition and retinal pigment epithelium function in the FoxG1::LRP2 myopic mice
Biochimica et Biophysica Acta - Molecular Basis of Disease, 2017Co-Authors: Olivier Cases, Manuel Simonutti, Antoine Joseph, Antoine Obry, Sirine Ben-yacoub, Sébastien Augustin, Géraldine Toutirais, Annabel Christ, Pascal Cosette, Renata KozyrakiAbstract:High myopia (HM) is one of the main causes of visual impairment and blindness all over the world and an unsolved medical problem. Persons with HM are predisposed to other eye pathologies such as retinal detachment, myopic retinopathy or glaucomatous optic neuropathy, complications that may at least partly result from the extensive liquefaction of the myopic vitreous gel. To identify the involvement of the liquid vitreous in the pathogenesis of HM we here analyzed the vitreous of the recently described highly myopic low density lipoprotein receptor-related protein 2 (LRP2)-deficient eyes. Whereas the gel-like fraction was not apparently modified, the volume of the liquid vitreous fraction (LVF) was much higher in the myopic eyes. Biochemical and proteome analysis of the LVF revealed several modifications including a marked decrease of potassium, sodium and chloride, of proteins involved in ocular tissue homeostasis and repair as well as of ADP-ribosylation factor 4 (ARF4), a protein possibly involved in LRP2 trafficking. A small number of proteins, mainly comprising known LRP2 ligands or proteins of the inflammatory response, were over expressed in the mutants. Moreover the morphology of the LRP2-deficient retinal pigment epithelium (RPE) cells was affected and the expression of ARF4 as well as of proteins involved in degradative endocytosis was strongly reduced. Our results support the idea that impairment of the RPE structure and most likely endocytic function may contribute to the vitreal modifications and pathogenesis of HM.
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Foxg1-Cre mediated LRP2 inactivation in the developing mouse neural retina, ciliary and retinal pigment epithelia models congenital high myopia
PLoS ONE, 2015Co-Authors: Olivier Cases, Manuel Simonutti, Antoine Joseph, Antoine Obry, Mathieu D. Santin, Sirine Ben-yacoub, Michel Pâques, Sabine Amsellem-levera, Ana Bribian, Sébastien AugustinAbstract:Myopia is a common ocular disorder generally due to increased axial length of the eye-globe. Its extreme form high myopia (HM) is a multifactorial disease leading to retinal and scleral dam-age, visual impairment or loss and is an important health issue. Mutations in the endocytic receptor LRP2 gene result in Donnai-Barrow (DBS) and Stickler syndromes, both characterized by HM. To clearly establish the link between LRP2 and congenital HM we inactivated LRP2 in the mouse forebrain including the neural retina and the retinal and ciliary pigment epithelia. High resolution in vivo MRI imaging and ophthalmological analyses showed that the adult LRP2-defi-cient eyes were 40% longer than the control ones mainly due to an excessive elongation of the vitreal chamber. They had an apparently normal intraocular pressure and developed chorioret-inal atrophy and posterior scleral staphyloma features reminiscent of human myopic retinopa-thy. Immunomorphological and ultrastructural analyses showed that increased eye lengthening was first observed by post-natal day 5 (P5) and that it was accompanied by a rapid decrease of the bipolar, photoreceptor and retinal ganglion cells, and eventually the optic nerve axons. It was followed by scleral thinning and collagen fiber disorganization, essentially in the posterior pole. We conclude that the function of LRP2 in the ocular tissues is necessary for normal eye growth and that the LRP2-deficient eyes provide a unique tool to further study human HM.
Manuel Simonutti - One of the best experts on this subject based on the ideXlab platform.
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Impaired vitreous composition and retinal pigment epithelium function in the FoxG1::LRP2 myopic mice
Biochimica et Biophysica Acta - Molecular Basis of Disease, 2017Co-Authors: Olivier Cases, Manuel Simonutti, Antoine Joseph, Antoine Obry, Sirine Ben-yacoub, Sébastien Augustin, Géraldine Toutirais, Annabel Christ, Pascal Cosette, Renata KozyrakiAbstract:High myopia (HM) is one of the main causes of visual impairment and blindness all over the world and an unsolved medical problem. Persons with HM are predisposed to other eye pathologies such as retinal detachment, myopic retinopathy or glaucomatous optic neuropathy, complications that may at least partly result from the extensive liquefaction of the myopic vitreous gel. To identify the involvement of the liquid vitreous in the pathogenesis of HM we here analyzed the vitreous of the recently described highly myopic low density lipoprotein receptor-related protein 2 (LRP2)-deficient eyes. Whereas the gel-like fraction was not apparently modified, the volume of the liquid vitreous fraction (LVF) was much higher in the myopic eyes. Biochemical and proteome analysis of the LVF revealed several modifications including a marked decrease of potassium, sodium and chloride, of proteins involved in ocular tissue homeostasis and repair as well as of ADP-ribosylation factor 4 (ARF4), a protein possibly involved in LRP2 trafficking. A small number of proteins, mainly comprising known LRP2 ligands or proteins of the inflammatory response, were over expressed in the mutants. Moreover the morphology of the LRP2-deficient retinal pigment epithelium (RPE) cells was affected and the expression of ARF4 as well as of proteins involved in degradative endocytosis was strongly reduced. Our results support the idea that impairment of the RPE structure and most likely endocytic function may contribute to the vitreal modifications and pathogenesis of HM.
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Foxg1-Cre mediated LRP2 inactivation in the developing mouse neural retina, ciliary and retinal pigment epithelia models congenital high myopia
PLoS ONE, 2015Co-Authors: Olivier Cases, Manuel Simonutti, Antoine Joseph, Antoine Obry, Mathieu D. Santin, Sirine Ben-yacoub, Michel Pâques, Sabine Amsellem-levera, Ana Bribian, Sébastien AugustinAbstract:Myopia is a common ocular disorder generally due to increased axial length of the eye-globe. Its extreme form high myopia (HM) is a multifactorial disease leading to retinal and scleral dam-age, visual impairment or loss and is an important health issue. Mutations in the endocytic receptor LRP2 gene result in Donnai-Barrow (DBS) and Stickler syndromes, both characterized by HM. To clearly establish the link between LRP2 and congenital HM we inactivated LRP2 in the mouse forebrain including the neural retina and the retinal and ciliary pigment epithelia. High resolution in vivo MRI imaging and ophthalmological analyses showed that the adult LRP2-defi-cient eyes were 40% longer than the control ones mainly due to an excessive elongation of the vitreal chamber. They had an apparently normal intraocular pressure and developed chorioret-inal atrophy and posterior scleral staphyloma features reminiscent of human myopic retinopa-thy. Immunomorphological and ultrastructural analyses showed that increased eye lengthening was first observed by post-natal day 5 (P5) and that it was accompanied by a rapid decrease of the bipolar, photoreceptor and retinal ganglion cells, and eventually the optic nerve axons. It was followed by scleral thinning and collagen fiber disorganization, essentially in the posterior pole. We conclude that the function of LRP2 in the ocular tissues is necessary for normal eye growth and that the LRP2-deficient eyes provide a unique tool to further study human HM.
